ABSTRACT
Although Leishmania infantum is well-known as the aethiological agent of visceral leishmaniasis (VL), in some Central American countries it may cause atypical non-ulcerated cutaneous leishmaniasis (NUCL). However, the mechanisms favoring its establishment in the skin are still unknown. Lipophosphoglycan (LPG) is the major Leishmania multivirulence factor involved in parasite-host interaction. In the case of viscerotropic L. infantum, it causes an immunosuppression during the interaction with macrophages. Here, we investigated the biochemical and functional roles of LPGs from four dermotropic L. infantum strains from Honduras during in vitro interaction with murine macrophages. LPGs were extracted, purified and their repeat units analysed. They did not have side chains consisting of Gal(β1,4)Man(α1)-PO4 common to all LPGs. Peritoneal macrophages from BALB/c and C57BL/6 were exposed to LPG for nitric oxide (NO) and cytokine (TNF-α and, IL-6) production. LPGs from dermotropic strains from Honduras triggered higher NO and cytokine levels compared to those from viscerotropic strains. In conclusion, LPGs from dermotropic strains are devoid of side-chains and exhibit high pro-inflammatory activity.
Subject(s)
Humans , Animals , Male , Mice , Glycosphingolipids , Leishmania infantum/physiology , Central America , Honduras , Macrophages/immunologyABSTRACT
Currently, the only method for identifying infective hosts with Leishmania infantum to the vector Lutzomyia longipalpis is xenodiagnosis. More recently, quantitative polymerase chain reaction (qPCR) has been used to model human reservoir competence by assuming that detection of parasite DNA indicates the presence of viable parasites for infecting vectors. Since this assumption has not been proven, this study aimed to verify this hypothesis. The concentration of amastigotes in the peripheral blood of 30 patients with kala-azar was microscopically verified by leukoconcentration and was compared to qPCR estimates. Parasites were identified in 4.8 mL of peripheral blood from 67% of the patients, at a very low concentration (average 0.3 parasites/mL). However, qPCR showed 93% sensitivity and the estimated parasitaemia was over a thousand times greater, both in blood and plasma, with higher levels in plasma than in blood. Furthermore, the microscopic count of circulating parasites and the qPCR parasitaemia estimates were not mathematically compatible with the published proportions of infected sandflies in xenodiagnostic studies. These findings suggest that qPCR does not measure the concentration of circulating parasites, but rather measures DNA from other sites, and that blood might not be the main source of infection for vectors.
Subject(s)
Humans , Animals , Male , Female , Child , Adolescent , Young Adult , Insect Vectors/parasitology , Leishmania infantum/physiology , Leishmaniasis, Visceral/parasitology , Parasitemia/parasitology , Polymerase Chain Reaction/methods , Psychodidae/parasitology , Child, Preschool , DNA, Protozoan/blood , Leishmaniasis, Visceral/transmission , Microscopy/methods , Sensitivity and SpecificityABSTRACT
Leishmaniasis is a vector-borne disease that is transmitted by sandflies and caused by obligate intracellular protozoa of the genus Leishmania. In the present study, we carried out a screening on the experimental infection of Phlebotomus pernioucus by bioluminescent Leishmania infantum using murine model and artificial feeder. We developed a real-time polymerase chain reaction (RT-PCR)-based method to determine individually the number of Leishmania promastigotes fed by infected flies. Among 1840 new emerged female sand flies, 428 were fed on the infected mice. After their death, they were analysed individually by RT-PCR. Our results demonstrated just a single Leishmania positive female at sixth day post meal. A total of 1070 female sand flies were exposed in contact with artificial feeder containing the human blood with two different quantities of Leishmania parasites: 2.106/mL and 1.107/mL. A blood meal including 1.107/mL LUC-promastigotes was proposed to 270 females and 75 (28%) flies were engorged. Among them, 44 (59%) were positive by RT-PCR analysis, with a relative average of 50551 Leishmania parasites. In case of blood feeding of females with 2.106/mL promastigotes, 57 out of 800 (7%) females succeed to feed from artificial feeder which 22 (39%) were positive with a relative average of 6487 parasites.
Subject(s)
Animals , Female , Insect Vectors/parasitology , Leishmania infantum/physiology , Phlebotomus/parasitology , Insect Vectors/classification , Leishmania infantum/growth & development , Luminescent Measurements , Mice , Mice, Inbred BALB C , Phlebotomus/classification , Real-Time Polymerase Chain ReactionABSTRACT
The objective of this study was to perform an epidemiological survey to determine the areas at risk of visceral leishmaniasis through the detection and quantification of natural infection by Leishmania infantum in Lutzomyia longipalpis. The sandflies were captured between February 2009 and January 2010, at 21 sites in four regions of the Fortaleza municipality. Samples were screened for the presence of Leishmania DNA by Real Time PCR (qPCR), amplification of kDNA minicircle sequence. Out of the 123 pools of analyzed sandflies, 45 were positive for L.infantum, and the minimum infection rate was 3.7%. In the north, south, east and west regions, the pool screen assay predicted sand-fly infection prevalence of 3.4%, 4.7%, 4.9% and 8.4%, respectively. The parasite load ranged from 2.45 ± 0.96 to 2,820,246 ± 106,072. No statistical differences were found with respect to the frequency of sand-fly infection between the regions (P=0.3014), seasons (P = 0.3906) or trap locations (P = 0.8486). Statistical differences were found with respect to the frequency of sand-fly infection between the two seasons only in the west region (P=0.0152). The qPCR was able to detect and quantify L. infantum in L. longipalpis, therefore succeeding in identifying the areas of greatest risk of VL transmission.
O objetivo foi realizar um estudo epidemiológico para determinar as áreas de risco de transmissão de leishmaniose visceral pela detecção e quantificação de infecções naturais por Leishmania infantum em Lutzomyia longipalpis. As coletas foram realizadas entre fevereiro de 2009 e janeiro de 2010 em 21 locais, distribuídos em quatro regiões do município de Fortaleza. As amostras foram testadas quanto à presença de DNA de Leishmania por PCR em tempo real (qPCR). Dos 123 pools de flebotomíneos investigados, 45 foram positivos para L. infantum, e a taxa de infecção mínima foi de 3,7%. Nas regiões Norte, Sul, Leste e Oeste, a prevalência de flebotomíneos infectados foi de 3,4%, 4,7%, 4,9% e 8,4%, respectivamente. A carga de parasitas nos pools variou de 2,45 ± 0,96 a 2.820.246 ± 106.072. Não foram observadas diferenças significativas na frequência de flebotomíneos infectados entre as regiões (P = 0,3014), estação do ano (P = 0,3906) ou localização da armadilha (P = 0,8486). Foram observadas diferenças significativas na frequência de flebotomíneos somente na região oeste durante a estação chuvosa (P = 0,0152). A qPCR foi capaz de detectar e quantificar L. infantum em L. longipalpis, identificando as áreas de maior risco de transmissão de leishmaniose visceral.
Subject(s)
Animals , Leishmania infantum/physiology , Phlebotomus/parasitology , Brazil , Epidemiological Monitoring , Parasite LoadABSTRACT
Las relaciones que se establecen entre géneros de la familia trypanosomatidae en condiciones de coexistencia en el mismo medioambiente pueden estar vinculadas a respuestas compensatorias inter-poblacionales que incluyen cambios morfológicos (diferentes estadios) y morfométricos (diferencias mensurables). El análisis cuantitativo de tales respuestas en cultivos axénicos puros de Leishmania chagasi y trypanosoma cruzi, así como en isomezclas axénicas de L. chagasi-T. cruzi mantenidas in vitro, no ha sido abordado, desconociéndose por lo tanto, particularidades biológicas. Muestras interdiarias de cultivo se fijaron, colorearon, observaron, digitalizaron y procesaron cuantitativamente. Además de cuantificar las densidades poblacionales, se registraron las magnitudes numéricas de variables morfométricas que, posteriormente, se analizaron con herramientas estadísticas. Los resultados indicaron cambios específicos en las variables investigadas, así como heterogeneidad morfométrica entre los mismos morfotipos de los mismos géneros al ser mantenidos en cultivos puros o mixtos. Los modelos de cambio morfométrico de L. chagasi y T. cruzi en cultivos puros difieren de los modelos de cambio morfométrico en los cultivos mixtos (L. chagasi-T. cruzi). Las metodologías biométricas discriminan, en términos morfométricos, poblaciones del mismo estadio (morfotipo) en ambientes diferentes.
The relations established among genera of the Trypanosomatidae family in coexisting conditions in the same environment may be linked to inter-population compensatory answers that include morphological (differences among stages) and morphometrical (measurable difference) changes. The quantitative analysis of these answers in Leishmania chagasi and Trypanosoma cruzi pure axenic cultures, as well as in L. chagasi - T. cruzi axenic iso-mixtures in vitro maintained has not been approached, and consequently, potentially useful biological particularities in the control of these important human parasites are unknown. Every other day culture samples were fixed, stained, observed, digitalized and quantitatively processed. In addition to quantify, the population densities and the appearance-disappearance stage (morphotypes) dynamics, the numeric magnitudes of the morphometric variables were recorded and later analyzed with multivariate statistical techniques. The results indicate specific changes in the investigated variables, as well as morphometric heterogeneity between the same morphotypes of the same genera when maintained in pure or mixed cultivation. The morphometric change models for L. chagasi and T. cruzi in pure culture differ from the models of morphometric change in mixed cultivation (L. chagasi-T. cruzi). The biometric methodologies discriminate in morphometric terms populations of the same stage (morfotype) in different environments.